Method and apparatus for cephalometric imaging

ABSTRACT

The invention relates to a method for cephalometric imaging using an apparatus ( 1 ) which comprises an X-ray source ( 5 ), a line detector camera ( 8 ) equipped with a digital detector, which line detector camera is located to a position far away from the X-ray source ( 5 ) for carrying out cephalometric imaging while the slot of the line detector camera is substantially vertical. In cephalometric imaging, an X-ray beam ( 11 ) located substantially on the vertical plane is directed from the X-ray source ( 5 ) through the object being imaged, and the X-ray source ( 5 ) is at the same time turned about the rotation centre ( 13 ) located between the X-ray source and the line detector camera ( 8 ) in order to scan the object being imaged in the horizontal direction, whereby the line detector camera ( 8 ) is moved during the scanning movement in such a way that the ray beam ( 11 ) meets the slot ( 14 ) of the line detector camera. In the method, the effective focal spot is transferred from the rotation centre ( 13 ) to the focal spot of the X-ray source ( 5 ) by transferring the rotation centre by means of a transverse linear movement (A) with respect to the ray beam ( 11 ).

[0001] The present invention relates to a method for cephalometric imaging using an apparatus which comprises an X-ray source, a line detector camera equipped with a digital detector, which line detector camera is located to a position far away from the X-ray source for carrying out cephalometric imaging while the slot of the line detector camera is substantially vertical, whereby in cephalometric imaging, an X-ray beam located substantially on the vertical plane is directed from the X-ray source through the object being imaged, and the X-ray source is at the same time turned about the rotation centre located between the X-ray source and the line detector camera in order to scan the object being imaged in the horizontal direction, whereby the line detector camera is moved during the scanning movement in such a way that the ray beam meets the slot of the line detector camera. The publication U.S. Pat. No. 5,511,106 discloses this type of scanning method for cephalometric imaging.

[0002] When cephalometric imaging is carried out in the manner described in the preamble, the vertical ratio of enlargement remains the same as without the scanning movement, but the horizontal ratio of enlargement, on the other hand, changes because the rotation centre changes into the effective focal spot instead of the focal spot of the X-ray source. Accordingly, the object of the present invention is to provide a method by means of which the ratios of enlargement in cephalometric imaging can be maintained the same in the vertical and horizontal directions in cephalometric imaging, which is carried out by means of the turning movement taking place about the rotation centre of the X-ray source. A further object is to provide a method which can be implemented by using existing panoramic X-ray imaging apparatuses, which already comprise the means needed to perform the required movements. To achieve this object, the method relating to the invention is characterised in that in the method, the effective focal spot is transferred from the rotation centre to the focal spot of the X-ray source by transferring the rotation centre by means of a transverse linear movement with respect to the ray beam

The invention is described in greater detail in the following, with reference to the accompanying drawings, in which:

[0003]FIG. 1 shows a diagrammatic top view of an apparatus applicable for the method according to the invention,

[0004]FIG. 2 shows diagrammatically a view in principle of a camera used in the apparatus according to FIG. 1,

[0005]FIG. 3 shows diagrammatically the effect of the rotary movement of the X-ray source on the effective focus, and

[0006]FIG. 4 shows diagrammatically the effect of the transfer of the rotation centre of the rotary movement of the X-ray source on the effective focus.

[0007] The apparatus 1 according to FIG. 1 comprises a support part 2, beneath which is connected a panoramic imaging apparatus 4 which turns in a pivoting manner around the rotation centre 13, the imaging apparatus comprising a C arm 7, on one vertical branch 7 a of which is arranged an X-ray source 5 and the primary collimator 6 in its vicinity, and on the other branch 7 b a line detector camera 8.

[0008]FIG. 2 shows diagrammatically one implementation of a line detector camera 8, wherein on one side of the camera is formed a slot 14, behind which, inside the camera 8, is a digital detector 15, for example, a CCD sensor. The panoramic imaging apparatus 4 and its operation are, as such, known to a person skilled in the art. In panoramic imaging, the object to be imaged is placed between the branch parts 7 a, 7 b of the C arm by means of appropriate guides and supports, after which the X-ray source 5 is switched on and the C arm is rotated about the rotation centre 13, whereby the aperture of the primary collimator 6 is selected in such a way that the ray beam 11, which is substantially on the vertical plane, is directed at the detector 15 behind the substantially vertical slot 14 of the line detector camera 8 on the branch part 7 b of the C arm 7, from which detector the image data is transmitted further, for example, to a microprocessor. This process of panoramic imaging will not be described in greater detail in this connection.

[0009] To the support part 2 is connected a supporting arm 3, at the other end of which is the cephalometric imaging apparatus 10, which comprises a line detector camera 8 to be placed behind the object being imaged, and a secondary collimator 9 to be placed in front of the object being imaged. In cephalometric imaging, the patient's head is scanned by means of the ray beam 11 from right to left or vice versa.

[0010] In the method according to the invention, cephalometric imaging is carried out by turning the X-ray source 5 about a rotation centre 13 to image the patient's head 12 by means of a vertically positioned ray beam 11. FIG. 3 shows a situation where the rotation centre 13 remains in place, in which case, when the X-ray source 5 turns about the rotation centre, the X-ray beams 11 travel in each angular position via the rotation centre 13, whereby the rotation centre 13 becomes the effective focal spot for the radiation coming through the object in the layer 17 being imaged on the image plane (detector) 18. In this case, the ratio of enlargement, which is determined by the ratio of the distance (SID) between the focus and the image plane to the distance (SOD) between the focus and the object, is the ratio of the distance between the rotation centre 13 and the image layer 17 to the distance between the rotation centre 13 and the image plane 18.

[0011] It is for this reason that, according to the invention, in cephalometric imaging the rotation centre 13 is arranged to be transferred by linear movement transversely with respect to the ray beam 11, as shown by reference marking A in FIG. 1. FIG. 4 shows a situation where the rotation centre has been transferred by linear movement from position 13 a to position 13 b, whereby the focal spot is transferred to the X-ray source 5, in which case also the horizontal ratio of enlargement remains the same. 

1. (canceled)
 2. A method for operating a panoramic imaging apparatus to provide improved tomographic cephalometric images, the panoramic imaging apparatus being capable of operating in a mode in which an X-ray source and radiation sensor, spaced from said radiation source at a first distance, are rotated about an intermediate vertical rotation center to provide a panoramic image from a subject positioned between the X-ray source and the radiation sensor, said method comprising the steps of: positioning a radiation receiver to receive radiation from said X-ray source, said radiation receiver being located at a second distance from said X-ray source greater than said first distance; placing a subject for cephalometric imaging in front of the radiation receiver; projecting radiation from the X-ray source along a horizontal radiation path to apply radiation from the X-ray source to the radiation receiver; carrying out a first motion comprising rotating the X-ray source about the center of rotation; carrying out a second motion comprising horizontally translating the center of rotation in a direction generally transverse to the radiation path during application of the radiation to the radiation receiver; and carrying out a third motion comprising translating the radiation receiver in a horizontal direction generally transverse to the radiation path, said first, second, and third motions producing a tomographic cephalometric image from the panoramic imaging apparatus for which the effective focal point for the X-ray source has been altered in a manner to reduce differences in vertical and horizontal ratios of enlargement.
 3. The method according to claim 2 further including the step of collimating the radiation applied to the radiation receiver.
 4. An apparatus for providing a tomographic cephalometric image comprising: a radiation receiver; a panoramic imaging X-ray source providing radiation along a generally horizontally extending radiation path for application to said radiation receiver; a support for said X-ray source, said support having a vertical rotation center for rotating said X-ray source, said rotation center being positioned intermediate said radiation receiver and said X-ray source and closer to said X-ray source than to said radiation receiver; means for rotating said X-ray source about said rotation center; means for generally horizontally translating said rotation center in a direction generally transverse to the radiation path; and means for translating said radiation receiver in a horizontal direction generally transverse to the radiation path during application of the radiation to said radiation receiver, the motions provided to said radiation source, rotation center, and radiation receiver by the respective means producing a tomographic cephalometric image from a subject positioned in front of said radiation receiver for which the effective focal length of the X-ray source has been altered in a manner to reduce differences in the vertical and horizontal ratios of enlargement.
 5. The apparatus according to claim 4 wherein said radiation receiver comprises a line detection camera.
 6. The apparatus according to claim 4 further including a collimator for being placed in front of the subject. 